extern int tempc;

enum {
    FLAGS_UNKNOWN,

    FLAGS_ZN8,
    FLAGS_ZN16,
    FLAGS_ZN32,

    FLAGS_ADD8,
    FLAGS_ADD16,
    FLAGS_ADD32,

    FLAGS_SUB8,
    FLAGS_SUB16,
    FLAGS_SUB32,

    FLAGS_SHL8,
    FLAGS_SHL16,
    FLAGS_SHL32,

    FLAGS_SHR8,
    FLAGS_SHR16,
    FLAGS_SHR32,

    FLAGS_SAR8,
    FLAGS_SAR16,
    FLAGS_SAR32,

#ifdef USE_NEW_DYNAREC
    FLAGS_ROL8,
    FLAGS_ROL16,
    FLAGS_ROL32,

    FLAGS_ROR8,
    FLAGS_ROR16,
    FLAGS_ROR32,
#endif

    FLAGS_INC8,
    FLAGS_INC16,
    FLAGS_INC32,

    FLAGS_DEC8,
    FLAGS_DEC16,
    FLAGS_DEC32
#ifdef USE_NEW_DYNAREC
    ,

    FLAGS_ADC8,
    FLAGS_ADC16,
    FLAGS_ADC32,

    FLAGS_SBC8,
    FLAGS_SBC16,
    FLAGS_SBC32
#endif
};

static __inline int
ZF_SET(void)
{
    switch (cpu_state.flags_op) {
        case FLAGS_ZN8:
        case FLAGS_ZN16:
        case FLAGS_ZN32:
        case FLAGS_ADD8:
        case FLAGS_ADD16:
        case FLAGS_ADD32:
        case FLAGS_SUB8:
        case FLAGS_SUB16:
        case FLAGS_SUB32:
        case FLAGS_SHL8:
        case FLAGS_SHL16:
        case FLAGS_SHL32:
        case FLAGS_SHR8:
        case FLAGS_SHR16:
        case FLAGS_SHR32:
        case FLAGS_SAR8:
        case FLAGS_SAR16:
        case FLAGS_SAR32:
        case FLAGS_INC8:
        case FLAGS_INC16:
        case FLAGS_INC32:
        case FLAGS_DEC8:
        case FLAGS_DEC16:
        case FLAGS_DEC32:
#ifdef USE_NEW_DYNAREC
        case FLAGS_ADC8:
        case FLAGS_ADC16:
        case FLAGS_ADC32:
        case FLAGS_SBC8:
        case FLAGS_SBC16:
        case FLAGS_SBC32:
#endif
            return !cpu_state.flags_res;

#ifdef USE_NEW_DYNAREC
        case FLAGS_ROL8:
        case FLAGS_ROL16:
        case FLAGS_ROL32:
        case FLAGS_ROR8:
        case FLAGS_ROR16:
        case FLAGS_ROR32:
#endif
        case FLAGS_UNKNOWN:
            return cpu_state.flags & Z_FLAG;

#ifndef USE_NEW_DYNAREC
        default:
            return 0;
#endif
    }
#ifdef USE_NEW_DYNAREC
    return 0;
#endif
}

static __inline int
NF_SET(void)
{
    switch (cpu_state.flags_op) {
        case FLAGS_ZN8:
        case FLAGS_ADD8:
        case FLAGS_SUB8:
        case FLAGS_SHL8:
        case FLAGS_SHR8:
        case FLAGS_SAR8:
        case FLAGS_INC8:
        case FLAGS_DEC8:
#ifdef USE_NEW_DYNAREC
        case FLAGS_ADC8:
        case FLAGS_SBC8:
#endif
            return cpu_state.flags_res & 0x80;

        case FLAGS_ZN16:
        case FLAGS_ADD16:
        case FLAGS_SUB16:
        case FLAGS_SHL16:
        case FLAGS_SHR16:
        case FLAGS_SAR16:
        case FLAGS_INC16:
        case FLAGS_DEC16:
#ifdef USE_NEW_DYNAREC
        case FLAGS_ADC16:
        case FLAGS_SBC16:
#endif
            return cpu_state.flags_res & 0x8000;

        case FLAGS_ZN32:
        case FLAGS_ADD32:
        case FLAGS_SUB32:
        case FLAGS_SHL32:
        case FLAGS_SHR32:
        case FLAGS_SAR32:
        case FLAGS_INC32:
        case FLAGS_DEC32:
#ifdef USE_NEW_DYNAREC
        case FLAGS_ADC32:
        case FLAGS_SBC32:
#endif
            return cpu_state.flags_res & 0x80000000;

#ifdef USE_NEW_DYNAREC
        case FLAGS_ROL8:
        case FLAGS_ROL16:
        case FLAGS_ROL32:
        case FLAGS_ROR8:
        case FLAGS_ROR16:
        case FLAGS_ROR32:
#endif
        case FLAGS_UNKNOWN:
            return cpu_state.flags & N_FLAG;

#ifndef USE_NEW_DYNAREC
        default:
            return 0;
#endif
    }
#ifdef USE_NEW_DYNAREC
    return 0;
#endif
}

static __inline int
PF_SET(void)
{
    switch (cpu_state.flags_op) {
        case FLAGS_ZN8:
        case FLAGS_ZN16:
        case FLAGS_ZN32:
        case FLAGS_ADD8:
        case FLAGS_ADD16:
        case FLAGS_ADD32:
        case FLAGS_SUB8:
        case FLAGS_SUB16:
        case FLAGS_SUB32:
        case FLAGS_SHL8:
        case FLAGS_SHL16:
        case FLAGS_SHL32:
        case FLAGS_SHR8:
        case FLAGS_SHR16:
        case FLAGS_SHR32:
        case FLAGS_SAR8:
        case FLAGS_SAR16:
        case FLAGS_SAR32:
        case FLAGS_INC8:
        case FLAGS_INC16:
        case FLAGS_INC32:
        case FLAGS_DEC8:
        case FLAGS_DEC16:
        case FLAGS_DEC32:
#ifdef USE_NEW_DYNAREC
        case FLAGS_ADC8:
        case FLAGS_ADC16:
        case FLAGS_ADC32:
        case FLAGS_SBC8:
        case FLAGS_SBC16:
        case FLAGS_SBC32:
#endif
            return znptable8[cpu_state.flags_res & 0xff] & P_FLAG;

#ifdef USE_NEW_DYNAREC
        case FLAGS_ROL8:
        case FLAGS_ROL16:
        case FLAGS_ROL32:
        case FLAGS_ROR8:
        case FLAGS_ROR16:
        case FLAGS_ROR32:
#endif
        case FLAGS_UNKNOWN:
            return cpu_state.flags & P_FLAG;

#ifndef USE_NEW_DYNAREC
        default:
            return 0;
#endif
    }
#ifdef USE_NEW_DYNAREC
    return 0;
#endif
}

static __inline int
VF_SET(void)
{
    switch (cpu_state.flags_op) {
        case FLAGS_ZN8:
        case FLAGS_ZN16:
        case FLAGS_ZN32:
        case FLAGS_SAR8:
        case FLAGS_SAR16:
        case FLAGS_SAR32:
            return 0;

#ifdef USE_NEW_DYNAREC
        case FLAGS_ADC8:
#endif
        case FLAGS_ADD8:
        case FLAGS_INC8:
            return !((cpu_state.flags_op1 ^ cpu_state.flags_op2) & 0x80) && ((cpu_state.flags_op1 ^ cpu_state.flags_res) & 0x80);
#ifdef USE_NEW_DYNAREC
        case FLAGS_ADC16:
#endif
        case FLAGS_ADD16:
        case FLAGS_INC16:
            return !((cpu_state.flags_op1 ^ cpu_state.flags_op2) & 0x8000) && ((cpu_state.flags_op1 ^ cpu_state.flags_res) & 0x8000);
#ifdef USE_NEW_DYNAREC
        case FLAGS_ADC32:
#endif
        case FLAGS_ADD32:
        case FLAGS_INC32:
            return !((cpu_state.flags_op1 ^ cpu_state.flags_op2) & 0x80000000) && ((cpu_state.flags_op1 ^ cpu_state.flags_res) & 0x80000000);

#ifdef USE_NEW_DYNAREC
        case FLAGS_SBC8:
#endif
        case FLAGS_SUB8:
        case FLAGS_DEC8:
            return ((cpu_state.flags_op1 ^ cpu_state.flags_op2) & (cpu_state.flags_op1 ^ cpu_state.flags_res) & 0x80);
#ifdef USE_NEW_DYNAREC
        case FLAGS_SBC16:
#endif
        case FLAGS_SUB16:
        case FLAGS_DEC16:
            return ((cpu_state.flags_op1 ^ cpu_state.flags_op2) & (cpu_state.flags_op1 ^ cpu_state.flags_res) & 0x8000);
#ifdef USE_NEW_DYNAREC
        case FLAGS_SBC32:
#endif
        case FLAGS_SUB32:
        case FLAGS_DEC32:
            return ((cpu_state.flags_op1 ^ cpu_state.flags_op2) & (cpu_state.flags_op1 ^ cpu_state.flags_res) & 0x80000000);

        case FLAGS_SHL8:
            return (((cpu_state.flags_op1 << cpu_state.flags_op2) ^ (cpu_state.flags_op1 << (cpu_state.flags_op2 - 1))) & 0x80);
        case FLAGS_SHL16:
            return (((cpu_state.flags_op1 << cpu_state.flags_op2) ^ (cpu_state.flags_op1 << (cpu_state.flags_op2 - 1))) & 0x8000);
        case FLAGS_SHL32:
            return (((cpu_state.flags_op1 << cpu_state.flags_op2) ^ (cpu_state.flags_op1 << (cpu_state.flags_op2 - 1))) & 0x80000000);

        case FLAGS_SHR8:
            return ((cpu_state.flags_op2 == 1) && (cpu_state.flags_op1 & 0x80));
        case FLAGS_SHR16:
            return ((cpu_state.flags_op2 == 1) && (cpu_state.flags_op1 & 0x8000));
        case FLAGS_SHR32:
            return ((cpu_state.flags_op2 == 1) && (cpu_state.flags_op1 & 0x80000000));

#ifdef USE_NEW_DYNAREC
        case FLAGS_ROL8:
            return (cpu_state.flags_res ^ (cpu_state.flags_res >> 7)) & 1;
        case FLAGS_ROL16:
            return (cpu_state.flags_res ^ (cpu_state.flags_res >> 15)) & 1;
        case FLAGS_ROL32:
            return (cpu_state.flags_res ^ (cpu_state.flags_res >> 31)) & 1;

        case FLAGS_ROR8:
            return (cpu_state.flags_res ^ (cpu_state.flags_res >> 1)) & 0x40;
        case FLAGS_ROR16:
            return (cpu_state.flags_res ^ (cpu_state.flags_res >> 1)) & 0x4000;
        case FLAGS_ROR32:
            return (cpu_state.flags_res ^ (cpu_state.flags_res >> 1)) & 0x40000000;
#endif

        case FLAGS_UNKNOWN:
            return cpu_state.flags & V_FLAG;

#ifndef USE_NEW_DYNAREC
        default:
            return 0;
#endif
    }
#ifdef USE_NEW_DYNAREC
    return 0;
#endif
}

static __inline int
AF_SET(void)
{
    switch (cpu_state.flags_op) {
        case FLAGS_ZN8:
        case FLAGS_ZN16:
        case FLAGS_ZN32:
        case FLAGS_SHL8:
        case FLAGS_SHL16:
        case FLAGS_SHL32:
        case FLAGS_SHR8:
        case FLAGS_SHR16:
        case FLAGS_SHR32:
        case FLAGS_SAR8:
        case FLAGS_SAR16:
        case FLAGS_SAR32:
            return 0;

        case FLAGS_ADD8:
        case FLAGS_ADD16:
        case FLAGS_ADD32:
        case FLAGS_INC8:
        case FLAGS_INC16:
        case FLAGS_INC32:
            return ((cpu_state.flags_op1 & 0xF) + (cpu_state.flags_op2 & 0xF)) & 0x10;

#ifdef USE_NEW_DYNAREC
        case FLAGS_ADC8:
            return ((cpu_state.flags_res & 0xf) < (cpu_state.flags_op1 & 0xf)) || ((cpu_state.flags_res & 0xf) == (cpu_state.flags_op1 & 0xf) && cpu_state.flags_op2 == 0xff);
        case FLAGS_ADC16:
            return ((cpu_state.flags_res & 0xf) < (cpu_state.flags_op1 & 0xf)) || ((cpu_state.flags_res & 0xf) == (cpu_state.flags_op1 & 0xf) && cpu_state.flags_op2 == 0xffff);
        case FLAGS_ADC32:
            return ((cpu_state.flags_res & 0xf) < (cpu_state.flags_op1 & 0xf)) || ((cpu_state.flags_res & 0xf) == (cpu_state.flags_op1 & 0xf) && cpu_state.flags_op2 == 0xffffffff);
#endif

        case FLAGS_SUB8:
        case FLAGS_SUB16:
        case FLAGS_SUB32:
        case FLAGS_DEC8:
        case FLAGS_DEC16:
        case FLAGS_DEC32:
            return ((cpu_state.flags_op1 & 0xF) - (cpu_state.flags_op2 & 0xF)) & 0x10;

#ifdef USE_NEW_DYNAREC
        case FLAGS_SBC8:
        case FLAGS_SBC16:
        case FLAGS_SBC32:
            return ((cpu_state.flags_op1 & 0xf) < (cpu_state.flags_op2 & 0xf)) || ((cpu_state.flags_op1 & 0xf) == (cpu_state.flags_op2 & 0xf) && (cpu_state.flags_res & 0xf) != 0);

        case FLAGS_ROL8:
        case FLAGS_ROL16:
        case FLAGS_ROL32:
        case FLAGS_ROR8:
        case FLAGS_ROR16:
        case FLAGS_ROR32:
#endif
        case FLAGS_UNKNOWN:
            return cpu_state.flags & A_FLAG;

#ifndef USE_NEW_DYNAREC
        default:
            return 0;
#endif
    }
#ifdef USE_NEW_DYNAREC
    return 0;
#endif
}

static __inline int
CF_SET(void)
{
    switch (cpu_state.flags_op) {
        case FLAGS_ADD8:
            return ((cpu_state.flags_op1 + cpu_state.flags_op2) & 0x100) ? 1 : 0;
        case FLAGS_ADD16:
            return ((cpu_state.flags_op1 + cpu_state.flags_op2) & 0x10000) ? 1 : 0;
        case FLAGS_ADD32:
            return (cpu_state.flags_res < cpu_state.flags_op1);

#ifdef USE_NEW_DYNAREC
        case FLAGS_ADC8:
            return (cpu_state.flags_res < cpu_state.flags_op1) || (cpu_state.flags_res == cpu_state.flags_op1 && cpu_state.flags_op2 == 0xff);
        case FLAGS_ADC16:
            return (cpu_state.flags_res < cpu_state.flags_op1) || (cpu_state.flags_res == cpu_state.flags_op1 && cpu_state.flags_op2 == 0xffff);
        case FLAGS_ADC32:
            return (cpu_state.flags_res < cpu_state.flags_op1) || (cpu_state.flags_res == cpu_state.flags_op1 && cpu_state.flags_op2 == 0xffffffff);
#endif

        case FLAGS_SUB8:
        case FLAGS_SUB16:
        case FLAGS_SUB32:
            return (cpu_state.flags_op1 < cpu_state.flags_op2);

#ifdef USE_NEW_DYNAREC
        case FLAGS_SBC8:
        case FLAGS_SBC16:
        case FLAGS_SBC32:
            return (cpu_state.flags_op1 < cpu_state.flags_op2) || (cpu_state.flags_op1 == cpu_state.flags_op2 && cpu_state.flags_res != 0);
#endif

        case FLAGS_SHL8:
            return ((cpu_state.flags_op1 << (cpu_state.flags_op2 - 1)) & 0x80) ? 1 : 0;
        case FLAGS_SHL16:
            return ((cpu_state.flags_op1 << (cpu_state.flags_op2 - 1)) & 0x8000) ? 1 : 0;
        case FLAGS_SHL32:
            return ((cpu_state.flags_op1 << (cpu_state.flags_op2 - 1)) & 0x80000000) ? 1 : 0;

        case FLAGS_SHR8:
        case FLAGS_SHR16:
        case FLAGS_SHR32:
            return (cpu_state.flags_op1 >> (cpu_state.flags_op2 - 1)) & 1;

        case FLAGS_SAR8:
            return ((int8_t) cpu_state.flags_op1 >> (cpu_state.flags_op2 - 1)) & 1;
        case FLAGS_SAR16:
            return ((int16_t) cpu_state.flags_op1 >> (cpu_state.flags_op2 - 1)) & 1;
        case FLAGS_SAR32:
            return ((int32_t) cpu_state.flags_op1 >> (cpu_state.flags_op2 - 1)) & 1;

        case FLAGS_ZN8:
        case FLAGS_ZN16:
        case FLAGS_ZN32:
            return 0;

#ifdef USE_NEW_DYNAREC
        case FLAGS_ROL8:
        case FLAGS_ROL16:
        case FLAGS_ROL32:
            return cpu_state.flags_res & 1;

        case FLAGS_ROR8:
            return (cpu_state.flags_res & 0x80) ? 1 : 0;
        case FLAGS_ROR16:
            return (cpu_state.flags_res & 0x8000) ? 1 : 0;
        case FLAGS_ROR32:
            return (cpu_state.flags_res & 0x80000000) ? 1 : 0;
#endif

        case FLAGS_DEC8:
        case FLAGS_DEC16:
        case FLAGS_DEC32:
        case FLAGS_INC8:
        case FLAGS_INC16:
        case FLAGS_INC32:
        case FLAGS_UNKNOWN:
            return cpu_state.flags & C_FLAG;

#ifndef USE_NEW_DYNAREC
        default:
            return 0;
#endif
    }
#ifdef USE_NEW_DYNAREC
    return 0;
#endif
}

static __inline void
flags_rebuild(void)
{
    if (cpu_state.flags_op != FLAGS_UNKNOWN) {
        uint16_t tempf = 0;
        if (CF_SET())
            tempf |= C_FLAG;
        if (PF_SET())
            tempf |= P_FLAG;
        if (AF_SET())
            tempf |= A_FLAG;
        if (ZF_SET())
            tempf |= Z_FLAG;
        if (NF_SET())
            tempf |= N_FLAG;
        if (VF_SET())
            tempf |= V_FLAG;
        cpu_state.flags    = (cpu_state.flags & ~0x8d5) | tempf;
        cpu_state.flags_op = FLAGS_UNKNOWN;
    }
}

static __inline void
flags_extract(void)
{
    cpu_state.flags_op = FLAGS_UNKNOWN;
}

static __inline void
flags_rebuild_c(void)
{
    if (cpu_state.flags_op != FLAGS_UNKNOWN) {
        if (CF_SET())
            cpu_state.flags |= C_FLAG;
        else
            cpu_state.flags &= ~C_FLAG;
    }
}

#ifdef USE_NEW_DYNAREC
static __inline int
flags_res_valid(void)
{
    if ((cpu_state.flags_op == FLAGS_UNKNOWN) || ((cpu_state.flags_op >= FLAGS_ROL8) && (cpu_state.flags_op <= FLAGS_ROR32)))
        return 0;

    return 1;
}
#endif

static __inline void
setznp8(uint8_t val)
{
    cpu_state.flags_op  = FLAGS_ZN8;
    cpu_state.flags_res = val;
}
static __inline void
setznp16(uint16_t val)
{
    cpu_state.flags_op  = FLAGS_ZN16;
    cpu_state.flags_res = val;
}
static __inline void
setznp32(uint32_t val)
{
    cpu_state.flags_op  = FLAGS_ZN32;
    cpu_state.flags_res = val;
}

#define set_flags_shift(op, orig, shift, res) \
    cpu_state.flags_op  = op;                 \
    cpu_state.flags_res = res;                \
    cpu_state.flags_op1 = orig;               \
    cpu_state.flags_op2 = shift;

#ifdef USE_NEW_DYNAREC
#    define set_flags_rotate(op, res) \
        cpu_state.flags_op  = op;     \
        cpu_state.flags_res = res;
#endif

static __inline void
setadd8(uint8_t a, uint8_t b)
{
    cpu_state.flags_op1 = a;
    cpu_state.flags_op2 = b;
    cpu_state.flags_res = (a + b) & 0xff;
    cpu_state.flags_op  = FLAGS_ADD8;
}
static __inline void
setadd16(uint16_t a, uint16_t b)
{
    cpu_state.flags_op1 = a;
    cpu_state.flags_op2 = b;
    cpu_state.flags_res = (a + b) & 0xffff;
    cpu_state.flags_op  = FLAGS_ADD16;
}
static __inline void
setadd32(uint32_t a, uint32_t b)
{
    cpu_state.flags_op1 = a;
    cpu_state.flags_op2 = b;
    cpu_state.flags_res = a + b;
    cpu_state.flags_op  = FLAGS_ADD32;
}
static __inline void
setadd8nc(uint8_t a, uint8_t b)
{
    flags_rebuild_c();
    cpu_state.flags_op1 = a;
    cpu_state.flags_op2 = b;
    cpu_state.flags_res = (a + b) & 0xff;
    cpu_state.flags_op  = FLAGS_INC8;
}
static __inline void
setadd16nc(uint16_t a, uint16_t b)
{
    flags_rebuild_c();
    cpu_state.flags_op1 = a;
    cpu_state.flags_op2 = b;
    cpu_state.flags_res = (a + b) & 0xffff;
    cpu_state.flags_op  = FLAGS_INC16;
}
static __inline void
setadd32nc(uint32_t a, uint32_t b)
{
    flags_rebuild_c();
    cpu_state.flags_op1 = a;
    cpu_state.flags_op2 = b;
    cpu_state.flags_res = a + b;
    cpu_state.flags_op  = FLAGS_INC32;
}

static __inline void
setsub8(uint8_t a, uint8_t b)
{
    cpu_state.flags_op1 = a;
    cpu_state.flags_op2 = b;
    cpu_state.flags_res = (a - b) & 0xff;
    cpu_state.flags_op  = FLAGS_SUB8;
}
static __inline void
setsub16(uint16_t a, uint16_t b)
{
    cpu_state.flags_op1 = a;
    cpu_state.flags_op2 = b;
    cpu_state.flags_res = (a - b) & 0xffff;
    cpu_state.flags_op  = FLAGS_SUB16;
}
static __inline void
setsub32(uint32_t a, uint32_t b)
{
    cpu_state.flags_op1 = a;
    cpu_state.flags_op2 = b;
    cpu_state.flags_res = a - b;
    cpu_state.flags_op  = FLAGS_SUB32;
}

static __inline void
setsub8nc(uint8_t a, uint8_t b)
{
    flags_rebuild_c();
    cpu_state.flags_op1 = a;
    cpu_state.flags_op2 = b;
    cpu_state.flags_res = (a - b) & 0xff;
    cpu_state.flags_op  = FLAGS_DEC8;
}
static __inline void
setsub16nc(uint16_t a, uint16_t b)
{
    flags_rebuild_c();
    cpu_state.flags_op1 = a;
    cpu_state.flags_op2 = b;
    cpu_state.flags_res = (a - b) & 0xffff;
    cpu_state.flags_op  = FLAGS_DEC16;
}
static __inline void
setsub32nc(uint32_t a, uint32_t b)
{
    flags_rebuild_c();
    cpu_state.flags_op1 = a;
    cpu_state.flags_op2 = b;
    cpu_state.flags_res = a - b;
    cpu_state.flags_op  = FLAGS_DEC32;
}

#ifdef USE_NEW_DYNAREC
static __inline void
setadc8(uint8_t a, uint8_t b)
{
    cpu_state.flags_op1 = a;
    cpu_state.flags_op2 = b;
    cpu_state.flags_res = (a + b + tempc) & 0xff;
    cpu_state.flags_op  = FLAGS_ADC8;
}
static __inline void
setadc16(uint16_t a, uint16_t b)
{
    cpu_state.flags_op1 = a;
    cpu_state.flags_op2 = b;
    cpu_state.flags_res = (a + b + tempc) & 0xffff;
    cpu_state.flags_op  = FLAGS_ADC16;
}
static __inline void
setadc32(uint32_t a, uint32_t b)
{
    cpu_state.flags_op1 = a;
    cpu_state.flags_op2 = b;
    cpu_state.flags_res = a + b + tempc;
    cpu_state.flags_op  = FLAGS_ADC32;
}

static __inline void
setsbc8(uint8_t a, uint8_t b)
{
    cpu_state.flags_op1 = a;
    cpu_state.flags_op2 = b;
    cpu_state.flags_res = (a - (b + tempc)) & 0xff;
    cpu_state.flags_op  = FLAGS_SBC8;
}
static __inline void
setsbc16(uint16_t a, uint16_t b)
{
    cpu_state.flags_op1 = a;
    cpu_state.flags_op2 = b;
    cpu_state.flags_res = (a - (b + tempc)) & 0xffff;
    cpu_state.flags_op  = FLAGS_SBC16;
}
static __inline void
setsbc32(uint32_t a, uint32_t b)
{
    cpu_state.flags_op1 = a;
    cpu_state.flags_op2 = b;
    cpu_state.flags_res = a - (b + tempc);
    cpu_state.flags_op  = FLAGS_SBC32;
}
#else
static __inline void
setadc8(uint8_t a, uint8_t b)
{
    uint16_t c         = (uint16_t) a + (uint16_t) b + tempc;
    cpu_state.flags_op = FLAGS_UNKNOWN;
    cpu_state.flags &= ~0x8D5;
    cpu_state.flags |= znptable8[c & 0xFF];
    if (c & 0x100)
        cpu_state.flags |= C_FLAG;
    if (!((a ^ b) & 0x80) && ((a ^ c) & 0x80))
        cpu_state.flags |= V_FLAG;
    if (((a & 0xF) + (b & 0xF) + tempc) & 0x10)
        cpu_state.flags |= A_FLAG;
}
static __inline void
setadc16(uint16_t a, uint16_t b)
{
    uint32_t c         = (uint32_t) a + (uint32_t) b + tempc;
    cpu_state.flags_op = FLAGS_UNKNOWN;
    cpu_state.flags &= ~0x8D5;
    cpu_state.flags |= znptable16[c & 0xFFFF];
    if (c & 0x10000)
        cpu_state.flags |= C_FLAG;
    if (!((a ^ b) & 0x8000) && ((a ^ c) & 0x8000))
        cpu_state.flags |= V_FLAG;
    if (((a & 0xF) + (b & 0xF) + tempc) & 0x10)
        cpu_state.flags |= A_FLAG;
}
static __inline void
setadc32(uint32_t a, uint32_t b)
{
    uint32_t c         = (uint32_t) a + (uint32_t) b + tempc;
    cpu_state.flags_op = FLAGS_UNKNOWN;
    cpu_state.flags &= ~0x8D5;
    cpu_state.flags |= ((c & 0x80000000) ? N_FLAG : ((!c) ? Z_FLAG : 0));
    cpu_state.flags |= (znptable8[c & 0xFF] & P_FLAG);
    if ((c < a) || (c == a && tempc))
        cpu_state.flags |= C_FLAG;
    if (!((a ^ b) & 0x80000000) && ((a ^ c) & 0x80000000))
        cpu_state.flags |= V_FLAG;
    if (((a & 0xF) + (b & 0xF) + tempc) & 0x10)
        cpu_state.flags |= A_FLAG;
}

static __inline void
setsbc8(uint8_t a, uint8_t b)
{
    uint16_t c         = (uint16_t) a - (((uint16_t) b) + tempc);
    cpu_state.flags_op = FLAGS_UNKNOWN;
    cpu_state.flags &= ~0x8D5;
    cpu_state.flags |= znptable8[c & 0xFF];
    if (c & 0x100)
        cpu_state.flags |= C_FLAG;
    if ((a ^ b) & (a ^ c) & 0x80)
        cpu_state.flags |= V_FLAG;
    if (((a & 0xF) - ((b & 0xF) + tempc)) & 0x10)
        cpu_state.flags |= A_FLAG;
}
static __inline void
setsbc16(uint16_t a, uint16_t b)
{
    uint32_t c         = (uint32_t) a - (((uint32_t) b) + tempc);
    cpu_state.flags_op = FLAGS_UNKNOWN;
    cpu_state.flags &= ~0x8D5;
    cpu_state.flags |= (znptable16[c & 0xFFFF] & ~4);
    cpu_state.flags |= (znptable8[c & 0xFF] & 4);
    if (c & 0x10000)
        cpu_state.flags |= C_FLAG;
    if ((a ^ b) & (a ^ c) & 0x8000)
        cpu_state.flags |= V_FLAG;
    if (((a & 0xF) - ((b & 0xF) + tempc)) & 0x10)
        cpu_state.flags |= A_FLAG;
}

static __inline void
setsbc32(uint32_t a, uint32_t b)
{
    uint32_t c         = (uint32_t) a - (((uint32_t) b) + tempc);
    cpu_state.flags_op = FLAGS_UNKNOWN;
    cpu_state.flags &= ~0x8D5;
    cpu_state.flags |= ((c & 0x80000000) ? N_FLAG : ((!c) ? Z_FLAG : 0));
    cpu_state.flags |= (znptable8[c & 0xFF] & P_FLAG);
    if ((c > a) || (c == a && tempc))
        cpu_state.flags |= C_FLAG;
    if ((a ^ b) & (a ^ c) & 0x80000000)
        cpu_state.flags |= V_FLAG;
    if (((a & 0xF) - ((b & 0xF) + tempc)) & 0x10)
        cpu_state.flags |= A_FLAG;
}
#endif

extern void cpu_386_flags_extract(void);
extern void cpu_386_flags_rebuild(void);
